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Udea Ruckdescheli Sp. N. from Crete and Its Phylogenetic

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Udea Ruckdescheli Sp. N. from Crete and Its Phylogenetic ZOBODAT - www.zobodat.at Zoologisch-Botanische Datenbank/Zoological-Botanical Database Digitale Literatur/Digital Literature Zeitschrift/Journal: Nota lepidopterologica Jahr/Year: 2016 Band/Volume: 39 Autor(en)/Author(s): Mally Richard, Segerer Andreas H., Nuß (auch Nuss) Matthias Artikel/Article: Udea ruckdescheli sp. n. from Crete and its phylogenetic relationships (Pyraloidea, Crambidae, Spilomelinae) 123-135 ©Societas Europaea Lepidopterologica; download unter http://www.soceurlep.eu/ und www.zobodat.at Nota Lepi. 39(2) 2016: 123–135 | DOI 10.3897/nl.39.9090 Udea ruckdescheli sp. n. from Crete and its phylogenetic relationships (Pyraloidea, Crambidae, Spilomelinae) Richard Mally1, Andreas H. Segerer2, Matthias Nuss3 1 University Museum of Bergen, Natural History Collections, Realfagbygget, Allégaten 41, 5007 Bergen, Norway; [email protected] 2 Bavarian Natural History Collections, Bavarian State Collection of Zoology, Münchhausenstraße 21, 81247 München, Germany; [email protected] 3 Senckenberg Museum of Zoology, Königsbrücker Landstraße 159, 01109 Dresden, Germany; [email protected] http://zoobank.org/883EB672-9EA7-4ABA-957F-71DAC41484EA Received 5 May 2016; accepted 11 August 2016; published: 24 August 2016 Subject Editor: Bernard Landry. Abstract. DNA barcode data reveal a distinct group of Udea specimens collected on Crete and previously misidentified as Udea fulvalis (Hübner, 1809) and U. languidalis ab. veneralis (Staudinger, 1870). Morpho- logical examination of the specimens corroborates their status as a distinct species which is described as Udea ruckdescheli sp. n. Images of the adults and the genitalia of both sexes, as well as the DNA barcode sequences are presented. A phylogenetic analysis using molecular (COI, wingless) and morphological data indicates that the new species belongs to the Udea numeralis (Hübner, 1796) species group and is sister to the Udea fimbri- atralis (Duponchel, 1833) species complex. Introduction Udea Guenée (in Duponchel), 1845 is the most species-rich genus of Spilomelinae, comprising 214 described species (Nuss et al. 2003–2016). Udea species inhabit every continent except Antarctica, but their main diversity is found in temperate regions and on oceanic islands (Munroe 1966). A number of Udea species such as U. ferrugalis (Hübner, 1796), U. decrepitalis (Herrich-Schäffer, 1848) and U. costalis (Eversmann, 1852) are widely distributed, while many others, e.g. U. acco- lalis (Zeller, 1867), U. carniolica Huemer and Tarmann, 1989, U. cretacea (Filipjev, 1925) and the species of oceanic islands have a much narrower distribution or are even endemic to a small region. With 38 species occurring in Europe, Udea constitutes almost 40 percent of the European Spilo- melinae diversity (Nuss et al. 2003–2016). Even though the European pyraloid fauna is relatively well studied in comparison to other regions of the Earth, a considerable number of Udea species have been described in the past few decades (Huemer and Tarmann 1989; Leraut 1996; Meyer et al. 1997; Slamka 2013; Tautel 2014). Taxonomic and systematic research in Udea is impeded by the morphological homogeneity of the species: the uniform wing pattern between closely related species differs only slightly in colouration and maculation, and genitalia of both sexes provide only minor structural differences (Munroe 1966). In a phylogenetic analysis on the genus with a focus on European species, Mally and Nuss (2011) proposed four species groups supported by apomorphic characters of the wings ©Societas Europaea Lepidopterologica; download unter http://www.soceurlep.eu/ und www.zobodat.at 124 Mally et al.: Udea ruckdescheli sp. n. from Crete and its phylogenetic relationships and genitalia. Nevertheless, taxonomic problems still persist, e.g. in the U. fimbriatralis complex, the U. numeralis complex, the U. itysalis (Walker, 1859b) species group and in U. rhododendron- alis (Duponchel, 1834) (Munroe 1966; Leraut 1996; Slamka 2013). The increasing availability of molecular data enables a re-investigation of such taxa. Easily amplifiable gene sequences such as the DNA barcode (Hebert et al. 2003) allow quick and efficient screening of large numbers of specimens for overlooked and cryptic species (e.g. Huemer and Hebert 2011; Mutanen et al. 2012). Combining morphological and molecular data in taxonomic studies not only increases the amount of information, but also allows for a comparison of the outcome of the different data sets against each other (Schlick-Steiner et al. 2010). This integrative approach is used to evaluate Udea specimens from Crete. Material and methods DNA barcodes were either obtained via sending a leg per specimen to the Barcode of Life Facilities in Guelph, Canada, or via DNA extraction and amplification from the abdomen according to the procedure of Knölke et al. (2005): the abdomen was detached from the dried specimen and DNA was extracted using the DNeasy Blood & Tissue kit (Qiagen) according to the manufacturer’s protocol. The mitochondrial COI gene was amplified using the primers HybLCO (forward) and HybNancy (reverse) (Folmer et al. 1994; Wahlberg and Wheat 2008). For the nuclear wingless gene we used the primers HybLepWg1 (forward) and HybLepWg2 (reverse) (Wahlberg and Wheat 2008). Both primer pairs contained a 5’ tail of the universal sequencing primers T7 (forward) or T3 (reverse), denoted by the ‘Hyb’ in the primer names. The 25 µl reactions contained 400 nM of forward and reverse primer, 0.75u TaKaRa Ex Taq Hot Start DNA Polymerase, 2.5 µl Ex Taq buffer (incl. MgCl2), 800 µM dNTP mix and 2µl of DNA of concentration as extracted. PCR results were examined via gel electrophoresis on a 1% agarose gel and GelRed as dying agent. Successful PCR samples were cleaned with Exonu- clease I (Exo) and Shrimp Alkaline Phosphatase (SAP). For the Sanger-sequencing PCR reactions we used 0.25–3.0 µl PCR sample, depending on the thickness of the respective agarose gel band, 160 nM of the sequencing primers T7 and T3, 0.5 µl BigDye, 1.0 µl sequencing buffer, and added up with dis- tilled water to the 10 µl reaction volume. Sequencing was conducted at the sequencing facility of the University of Bergen, Department of Molecular Biology. PCR and sequencing PCR were performed on a Bio-Rad C1000 thermal cycler, ExoSAP clean-up was done with an MJ Research PTC-200 ther- mal cycler. Sequences were aligned using PhyDE version 0.9971 (Müller et al. 2008). Dissection of genitalia was performed according to Robinson (1976). Morphological structures were investigated using a Leica M125 stereomicroscope. Photographic documentation of imagines was done with a Canon EOS 60D in combination with a Canon EF 100mm 1:2,8 Macrolens and Canon EOS Utility Version 2.10.2.0 on a Windows PC. A Leica CTR6000 Microscope in combi- nation with a Leica DFC420 camera and Leica Application Suite programme, version 3.8.0 on a Windows PC was used for documentation of the genitalia. The Bayesian inference of the combined molecular and morphological data was conducted us- ing MrBayes 3.2.5 (Ronquist et al. 2012). We used the dataset published by Mally and Nuss (2011) and added the information for the six specimens of U. ruckdescheli for which we had molecular data available (see Table 1). The phylogenetic analysis of Mally and Nuss (2011) found a clade containing Deana hybreasalis (Walker, 1859a), Mnesictena marmarina Meyrick, 1884 and Ude- ©Societas Europaea Lepidopterologica; download unter http://www.soceurlep.eu/ und www.zobodat.at Nota Lepi. 39(2): 123–135 125 oides muscosalis (Hampson, 1913) as sister to Udea, therefore we used this sister clade as outgroup in our analysis. This taxon sampling resulted in the morphological character 17, “Uncus – apex with bulbous thickening: absent (0); present (1)”, being constant, therefore we excluded it from the dataset. The data were divided into three partitions: COI (1459 bp), wingless (363 bp) and the morpho- logical data (23 characters). We applied the GTR+G model for the gene partitions and the Mk model (Lewis 2001) with gamma rate variation for the morphological partition. The parameters for gamma shape, proportion of invariable sites, character state frequencies and GTR substitution rates were unlinked for the three partitions, and the overall rate was allowed to vary across partitions. The analysis was run for two million generations with four simultaneous analyses, sampling of the Markov chain at every 1,000th cycle and a burn-in of 25%. Effective sampling sizes and degree of convergence of the analyses were evaluated in Tracer (Rambaut et al. 2014). The final consensus tree was annotated using TreeGraph 2.9.2 (Stöver and Müller 2010), with all branches with poste- rior probabilities < 0.90 collapsed. Abbreviations BC Barcode bp base pairs COI cytochrome oxidase subunit I DNA desoxyribonucleic acid EBI European Bioinformatics Institute, Saffron Walden, Great Britain MTD Senckenberg Museum of Zoology („Museum für Tierkunde“) Dresden, Germany NHMO Natural History Museum Oslo, Norway PCR polymerase chain reaction prep. preparation TLMF Tiroler Landesmuseum Ferdinandeum, Innsbruck, Austria ZMHB Zoological Museum, Humboldt University, Berlin, Germany ZMBN Zoological Museum Bergen, Norway ZSM Zoological State Collections Munich, Germany Results The analysis of DNA Barcodes of Udea specimens from Crete resulted in three clusters: U. ferru- galis, U. numeralis and one unknown cluster. The latter remained unknown when analysing these sequences together with the data set of Mally and Nuss (2011),
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